Effect of Mo content on microstructure and stress-rupture properties of a Ni-base single crystal superalloy

Abstract

The additional 1.5wt% Mo was added in a Ni-base single crystal (SC) alloy with the composition of Ni–6.5Al–8.0Mo–2.4Cr–6.2Ta–4.9Co–1.5Re–(0.01–0.05)Y (wt%) to study the effect of Mo content on the microstructure and stress-rupture properties. The creep and stress-rupture tests under the conditions of 850°C/500MPa and 1100°C/130MPa were conducted, and the microstructure of as-cast, heat treated and stress ruptured specimens were analyzed. It was found that the 1.5wt% Mo addition enhanced the stress-rupture lives at both intermediate (850°C) and high (1100°C) temperatures. The microstructure analysis showed that adding 1.5wt% Mo in the basic alloy affected the microstructure dramatically, i.e., the Mo-rich phases formed in the specimens of as-cast and stress-ruptured specimens. It is considered that the improvement of the stress-rupture lives is duo to the strengthening effect of Mo to both γ and γ′ phases and the decrease of stacking fault energy, diffusion constant and dislocation spacing. The Mo-rich phases precipitated under condition of 1100°C/130MPa did not affect the creep and stress-rupture properties obviously in the present study.